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In vivo inhibition of the mitochondrial H+-ATP synthase in neurons promotes metabolic preconditioning.


ABSTRACT: A key transducer in energy conservation and signaling cell death is the mitochondrial H(+)-ATP synthase. The expression of the ATPase inhibitory factor 1 (IF1) is a strategy used by cancer cells to inhibit the activity of the H(+)-ATP synthase to generate a ROS signal that switches on cellular programs of survival. We have generated a mouse model expressing a mutant of human IF1 in brain neurons to assess the role of the H(+)-ATP synthase in cell death in vivo. The expression of hIF1 inhibits the activity of oxidative phosphorylation and mediates the shift of neurons to an enhanced aerobic glycolysis. Metabolic reprogramming induces brain preconditioning affording protection against quinolinic acid-induced excitotoxicity. Mechanistically, preconditioning involves the activation of the Akt/p70S6K and PARP repair pathways and Bcl-xL protection from cell death. Overall, our findings provide the first in vivo evidence highlighting the H(+)-ATP synthase as a target to prevent neuronal cell death.

SUBMITTER: Formentini L 

PROVIDER: S-EPMC4000092 | biostudies-literature | 2014 Apr

REPOSITORIES: biostudies-literature

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In vivo inhibition of the mitochondrial H+-ATP synthase in neurons promotes metabolic preconditioning.

Formentini Laura L   Pereira Marta P MP   Sánchez-Cenizo Laura L   Santacatterina Fulvio F   Lucas José J JJ   Navarro Carmen C   Martínez-Serrano Alberto A   Cuezva José M JM  

The EMBO journal 20140212 7


A key transducer in energy conservation and signaling cell death is the mitochondrial H(+)-ATP synthase. The expression of the ATPase inhibitory factor 1 (IF1) is a strategy used by cancer cells to inhibit the activity of the H(+)-ATP synthase to generate a ROS signal that switches on cellular programs of survival. We have generated a mouse model expressing a mutant of human IF1 in brain neurons to assess the role of the H(+)-ATP synthase in cell death in vivo. The expression of hIF1 inhibits th  ...[more]

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